"""Mobjects used for displaying (non-LaTeX) text.

.. note::
   Just as you can use :class:`~.Tex` and :class:`~.MathTex` (from the module :mod:`~.tex_mobject`)
   to insert LaTeX to your videos, you can use :class:`~.Text` to to add normal text.

.. important::

   See the corresponding tutorial :ref:`using-text-objects`, especially for information about fonts.


The simplest way to add text to your animations is to use the :class:`~.Text` class. It uses the Pango library to render text.
With Pango, you are also able to render non-English alphabets like `你好` or  `こんにちは` or `안녕하세요` or `مرحبا بالعالم`.

Examples
--------

.. manim:: HelloWorld
    :save_last_frame:

    class HelloWorld(Scene):
        def construct(self):
            text = Text('Hello world').scale(3)
            self.add(text)

.. manim:: TextAlignment
    :save_last_frame:

    class TextAlignment(Scene):
        def construct(self):
            title = Text("K-means clustering and Logistic Regression", color=WHITE)
            title.scale(0.75)
            self.add(title.to_edge(UP))

            t1 = Text("1. Measuring").set_color(WHITE)

            t2 = Text("2. Clustering").set_color(WHITE)

            t3 = Text("3. Regression").set_color(WHITE)

            t4 = Text("4. Prediction").set_color(WHITE)

            x = VGroup(t1, t2, t3, t4).arrange(direction=DOWN, aligned_edge=LEFT).scale(0.7).next_to(ORIGIN,DR)
            x.set_opacity(0.5)
            x.submobjects[1].set_opacity(1)
            self.add(x)

"""

from __future__ import annotations

import functools

__all__ = ["Text", "Paragraph", "MarkupText", "register_font"]


import copy
import hashlib
import re
from collections.abc import Iterable, Iterator, Sequence
from contextlib import contextmanager
from itertools import chain
from pathlib import Path
from typing import TYPE_CHECKING, Any

import manimpango
import numpy as np
from manimpango import MarkupUtils, PangoUtils, TextSetting

from manim import config, logger
from manim.constants import *
from manim.mobject.geometry.arc import Dot
from manim.mobject.svg.svg_mobject import SVGMobject
from manim.mobject.types.vectorized_mobject import VGroup, VMobject
from manim.typing import Point3D
from manim.utils.color import ManimColor, ParsableManimColor, color_gradient

if TYPE_CHECKING:
    from typing_extensions import Self

    from manim.typing import Point3D

TEXT_MOB_SCALE_FACTOR = 0.05
DEFAULT_LINE_SPACING_SCALE = 0.3
TEXT2SVG_ADJUSTMENT_FACTOR = 4.8

__all__ = ["Text", "Paragraph", "MarkupText", "register_font"]


def remove_invisible_chars(mobject: VMobject) -> VMobject:
    """Function to remove unwanted invisible characters from some mobjects.

    Parameters
    ----------
    mobject
        Any SVGMobject from which we want to remove unwanted invisible characters.

    Returns
    -------
    :class:`~.SVGMobject`
        The SVGMobject without unwanted invisible characters.
    """
    mobject_without_dots = VGroup()
    if isinstance(mobject[0], VGroup):
        for submob in mobject:
            mobject_without_dots.add(
                VGroup(k for k in submob if not isinstance(k, Dot))
            )
    else:
        mobject_without_dots.add(*(k for k in mobject if not isinstance(k, Dot)))
    return mobject_without_dots


class Paragraph(VGroup):
    r"""Display a paragraph of text.

    For a given :class:`.Paragraph` ``par``, the attribute ``par.chars`` is a
    :class:`.VGroup` containing all the lines. In this context, every line is
    constructed as a :class:`.VGroup` of characters contained in the line.


    Parameters
    ----------
    line_spacing
        Represents the spacing between lines. Defaults to -1, which means auto.
    alignment
        Defines the alignment of paragraph. Defaults to None. Possible values are "left", "right" or "center".

    Examples
    --------
    Normal usage::

        paragraph = Paragraph(
            "this is a awesome",
            "paragraph",
            "With \nNewlines",
            "\tWith Tabs",
            "  With Spaces",
            "With Alignments",
            "center",
            "left",
            "right",
        )

    Remove unwanted invisible characters::

        self.play(Transform(remove_invisible_chars(paragraph.chars[0:2]),
                            remove_invisible_chars(paragraph.chars[3][0:3]))

    """

    def __init__(
        self,
        *text: str,
        line_spacing: float = -1,
        alignment: str | None = None,
        **kwargs: Any,
    ):
        self.line_spacing = line_spacing
        self.alignment = alignment
        self.consider_spaces_as_chars = kwargs.get("disable_ligatures", False)
        super().__init__()

        lines_str = "\n".join(list(text))
        self.lines_text = Text(lines_str, line_spacing=line_spacing, **kwargs)
        lines_str_list = lines_str.split("\n")
        self.chars = self._gen_chars(lines_str_list)

        self.lines = [list(self.chars), [self.alignment] * len(self.chars)]
        self.lines_initial_positions = [line.get_center() for line in self.lines[0]]
        self.add(*self.lines[0])
        self.move_to(np.array([0, 0, 0]))
        if self.alignment:
            self._set_all_lines_alignments(self.alignment)

    def _gen_chars(self, lines_str_list: list) -> VGroup:
        """Function to convert a list of plain strings to a VGroup of VGroups of chars.

        Parameters
        ----------
        lines_str_list
            List of plain text strings.

        Returns
        -------
        :class:`~.VGroup`
            The generated 2d-VGroup of chars.
        """
        char_index_counter = 0
        chars = self.get_group_class()()
        for line_no in range(len(lines_str_list)):
            line_str = lines_str_list[line_no]
            # Count all the characters in line_str
            # Spaces may or may not count as characters
            if self.consider_spaces_as_chars:
                char_count = len(line_str)
            else:
                char_count = 0
                for char in line_str:
                    if not char.isspace():
                        char_count += 1

            chars.add(self.get_group_class()())
            chars[line_no].add(
                *self.lines_text.chars[
                    char_index_counter : char_index_counter + char_count
                ]
            )
            char_index_counter += char_count
            if self.consider_spaces_as_chars:
                # If spaces count as characters, count the extra \n character
                # which separates Paragraph's lines to avoid issues
                char_index_counter += 1
        return chars

    def _set_all_lines_alignments(self, alignment: str) -> Paragraph:
        """Function to set all line's alignment to a specific value.

        Parameters
        ----------
        alignment
            Defines the alignment of paragraph. Possible values are "left", "right", "center".
        """
        for line_no in range(len(self.lines[0])):
            self._change_alignment_for_a_line(alignment, line_no)
        return self

    def _set_line_alignment(self, alignment: str, line_no: int) -> Paragraph:
        """Function to set one line's alignment to a specific value.

        Parameters
        ----------
        alignment
            Defines the alignment of paragraph. Possible values are "left", "right", "center".
        line_no
            Defines the line number for which we want to set given alignment.
        """
        self._change_alignment_for_a_line(alignment, line_no)
        return self

    def _set_all_lines_to_initial_positions(self) -> Paragraph:
        """Set all lines to their initial positions."""
        self.lines[1] = [None] * len(self.lines[0])
        for line_no in range(len(self.lines[0])):
            self[line_no].move_to(
                self.get_center() + self.lines_initial_positions[line_no],
            )
        return self

    def _set_line_to_initial_position(self, line_no: int) -> Paragraph:
        """Function to set one line to initial positions.

        Parameters
        ----------
        line_no
            Defines the line number for which we want to set given alignment.
        """
        self.lines[1][line_no] = None
        self[line_no].move_to(self.get_center() + self.lines_initial_positions[line_no])
        return self

    def _change_alignment_for_a_line(self, alignment: str, line_no: int) -> None:
        """Function to change one line's alignment to a specific value.

        Parameters
        ----------
        alignment
            Defines the alignment of paragraph. Possible values are "left", "right", "center".
        line_no
            Defines the line number for which we want to set given alignment.
        """
        self.lines[1][line_no] = alignment
        if self.lines[1][line_no] == "center":
            self[line_no].move_to(
                np.array([self.get_center()[0], self[line_no].get_center()[1], 0]),
            )
        elif self.lines[1][line_no] == "right":
            self[line_no].move_to(
                np.array(
                    [
                        self.get_right()[0] - self[line_no].width / 2,
                        self[line_no].get_center()[1],
                        0,
                    ],
                ),
            )
        elif self.lines[1][line_no] == "left":
            self[line_no].move_to(
                np.array(
                    [
                        self.get_left()[0] + self[line_no].width / 2,
                        self[line_no].get_center()[1],
                        0,
                    ],
                ),
            )


class Text(SVGMobject):
    r"""Display (non-LaTeX) text rendered using `Pango <https://pango.org/>`_.

    Text objects behave like a :class:`.VGroup`-like iterable of all characters
    in the given text. In particular, slicing is possible.

    Parameters
    ----------
    text
        The text that needs to be created as a mobject.
    font
        The font family to be used to render the text. This is either a system font or
        one loaded with `register_font()`. Note that font family names may be different
        across operating systems.
    warn_missing_font
        If True (default), Manim will issue a warning if the font does not exist in the
        (case-sensitive) list of fonts returned from `manimpango.list_fonts()`.

    Returns
    -------
    :class:`Text`
        The mobject-like :class:`.VGroup`.

    Examples
    ---------

    .. manim:: Example1Text
        :save_last_frame:

        class Example1Text(Scene):
            def construct(self):
                text = Text('Hello world').scale(3)
                self.add(text)

    .. manim:: TextColorExample
        :save_last_frame:

        class TextColorExample(Scene):
            def construct(self):
                text1 = Text('Hello world', color=BLUE).scale(3)
                text2 = Text('Hello world', gradient=(BLUE, GREEN)).scale(3).next_to(text1, DOWN)
                self.add(text1, text2)

    .. manim:: TextItalicAndBoldExample
        :save_last_frame:

        class TextItalicAndBoldExample(Scene):
            def construct(self):
                text1 = Text("Hello world", slant=ITALIC)
                text2 = Text("Hello world", t2s={'world':ITALIC})
                text3 = Text("Hello world", weight=BOLD)
                text4 = Text("Hello world", t2w={'world':BOLD})
                text5 = Text("Hello world", t2c={'o':YELLOW}, disable_ligatures=True)
                text6 = Text(
                    "Visit us at docs.manim.community",
                    t2c={"docs.manim.community": YELLOW},
                    disable_ligatures=True,
               )
                text6.scale(1.3).shift(DOWN)
                self.add(text1, text2, text3, text4, text5 , text6)
                Group(*self.mobjects).arrange(DOWN, buff=.8).set(height=config.frame_height-LARGE_BUFF)

    .. manim:: TextMoreCustomization
            :save_last_frame:

            class TextMoreCustomization(Scene):
                def construct(self):
                    text1 = Text(
                        'Google',
                        t2c={'[:1]': '#3174f0', '[1:2]': '#e53125',
                             '[2:3]': '#fbb003', '[3:4]': '#3174f0',
                             '[4:5]': '#269a43', '[5:]': '#e53125'}, font_size=58).scale(3)
                    self.add(text1)

    As :class:`Text` uses Pango to render text, rendering non-English
    characters is easily possible:

    .. manim:: MultipleFonts
        :save_last_frame:

        class MultipleFonts(Scene):
            def construct(self):
                morning = Text("வணக்கம்", font="sans-serif")
                japanese = Text(
                    "日本へようこそ", t2c={"日本": BLUE}
                )  # works same as ``Text``.
                mess = Text("Multi-Language", weight=BOLD)
                russ = Text("Здравствуйте मस नम म ", font="sans-serif")
                hin = Text("नमस्ते", font="sans-serif")
                arb = Text(
                    "صباح الخير \n تشرفت بمقابلتك", font="sans-serif"
                )  # don't mix RTL and LTR languages nothing shows up then ;-)
                chinese = Text("臂猿「黛比」帶著孩子", font="sans-serif")
                self.add(morning, japanese, mess, russ, hin, arb, chinese)
                for i,mobj in enumerate(self.mobjects):
                    mobj.shift(DOWN*(i-3))


    .. manim:: PangoRender
        :quality: low

        class PangoRender(Scene):
            def construct(self):
                morning = Text("வணக்கம்", font="sans-serif")
                self.play(Write(morning))
                self.wait(2)

    Tests
    -----

    Check that the creation of :class:`~.Text` works::

        >>> Text('The horse does not eat cucumber salad.')
        Text('The horse does not eat cucumber salad.')

    """

    @staticmethod
    @functools.cache
    def font_list() -> list[str]:
        value: list[str] = manimpango.list_fonts()
        return value

    def __init__(
        self,
        text: str,
        fill_opacity: float = 1.0,
        stroke_width: float = 0,
        color: ParsableManimColor | None = None,
        font_size: float = DEFAULT_FONT_SIZE,
        line_spacing: float = -1,
        font: str = "",
        slant: str = NORMAL,
        weight: str = NORMAL,
        t2c: dict[str, str] | None = None,
        t2f: dict[str, str] | None = None,
        t2g: dict[str, Iterable[ParsableManimColor]] | None = None,
        t2s: dict[str, str] | None = None,
        t2w: dict[str, str] | None = None,
        gradient: Iterable[ParsableManimColor] | None = None,
        tab_width: int = 4,
        warn_missing_font: bool = True,
        # Mobject
        height: float | None = None,
        width: float | None = None,
        should_center: bool = True,
        disable_ligatures: bool = False,
        use_svg_cache: bool = False,
        **kwargs: Any,
    ):
        self.line_spacing = line_spacing
        if font and warn_missing_font:
            fonts_list = Text.font_list()
            # handle special case of sans/sans-serif
            if font.lower() == "sans-serif":
                font = "sans"
            if font not in fonts_list:
                # check if the capitalized version is in the supported fonts
                if font.capitalize() in fonts_list:
                    font = font.capitalize()
                elif font.lower() in fonts_list:
                    font = font.lower()
                elif font.title() in fonts_list:
                    font = font.title()
                else:
                    logger.warning(f"Font {font} not in {fonts_list}.")
        self.font = font
        self._font_size = float(font_size)
        # needs to be a float or else size is inflated when font_size = 24
        # (unknown cause)
        self.slant = slant
        self.weight = weight
        self.gradient = gradient
        self.tab_width = tab_width
        if t2c is None:
            t2c = {}
        if t2f is None:
            t2f = {}
        if t2g is None:
            t2g = {}
        if t2s is None:
            t2s = {}
        if t2w is None:
            t2w = {}
        # If long form arguments are present, they take precedence
        t2c = kwargs.pop("text2color", t2c)
        t2f = kwargs.pop("text2font", t2f)
        t2g = kwargs.pop("text2gradient", t2g)
        t2s = kwargs.pop("text2slant", t2s)
        t2w = kwargs.pop("text2weight", t2w)
        assert t2c is not None
        assert t2f is not None
        assert t2g is not None
        assert t2s is not None
        assert t2w is not None
        self.t2c: dict[str, str] = {k: ManimColor(v).to_hex() for k, v in t2c.items()}
        self.t2f: dict[str, str] = t2f
        self.t2g: dict[str, Iterable[ParsableManimColor]] = t2g
        self.t2s: dict[str, str] = t2s
        self.t2w: dict[str, str] = t2w

        self.original_text = text
        self.disable_ligatures = disable_ligatures
        text_without_tabs = text
        if text.find("\t") != -1:
            text_without_tabs = text.replace("\t", " " * self.tab_width)
        self.text = text_without_tabs
        if self.line_spacing == -1:
            self.line_spacing = (
                self._font_size + self._font_size * DEFAULT_LINE_SPACING_SCALE
            )
        else:
            self.line_spacing = self._font_size + self._font_size * self.line_spacing

        parsed_color: ManimColor = ManimColor(color) if color else VMobject().color
        file_name = self._text2svg(parsed_color.to_hex())
        PangoUtils.remove_last_M(file_name)
        super().__init__(
            file_name,
            fill_opacity=fill_opacity,
            stroke_width=stroke_width,
            height=height,
            width=width,
            should_center=should_center,
            use_svg_cache=use_svg_cache,
            **kwargs,
        )
        self.text = text
        if self.disable_ligatures:
            self.submobjects = [*self._gen_chars()]
        self.chars = self.get_group_class()(*self.submobjects)
        self.text = text_without_tabs.replace(" ", "").replace("\n", "")
        nppc = self.n_points_per_curve
        for each in self:
            if len(each.points) == 0:
                continue
            points = each.points
            curve_start = points[0]
            assert len(curve_start) == self.dim, curve_start
            # Some of the glyphs in this text might not be closed,
            # so we close them by identifying when one curve ends
            # but it is not where the next curve starts.
            # It is more efficient to temporarily create a list
            # of points and add them one at a time, then turn them
            # into a numpy array at the end, rather than creating
            # new numpy arrays every time a point or fixing line
            # is added (which is O(n^2) for numpy arrays).
            closed_curve_points: list[Point3D] = []
            # OpenGL has points be part of quadratic Bezier curves;
            # Cairo uses cubic Bezier curves.
            if nppc == 3:  # RendererType.OPENGL

                def add_line_to(end: Point3D) -> None:
                    nonlocal closed_curve_points
                    start = closed_curve_points[-1]
                    closed_curve_points += [
                        start,
                        (start + end) / 2,
                        end,
                    ]

            else:  # RendererType.CAIRO

                def add_line_to(end: Point3D) -> None:
                    nonlocal closed_curve_points
                    start = closed_curve_points[-1]
                    closed_curve_points += [
                        start,
                        (start + start + end) / 3,
                        (start + end + end) / 3,
                        end,
                    ]

            for index, point in enumerate(points):
                closed_curve_points.append(point)
                if (
                    index != len(points) - 1
                    and (index + 1) % nppc == 0
                    and any(point != points[index + 1])
                ):
                    # Add straight line from last point on this curve to the
                    # start point on the next curve. We represent the line
                    # as a cubic bezier curve where the two control points
                    # are half-way between the start and stop point.
                    add_line_to(curve_start)
                    curve_start = points[index + 1]
            # Make sure last curve is closed
            add_line_to(curve_start)
            each.points = np.array(closed_curve_points, ndmin=2)
        # anti-aliasing
        if height is None and width is None:
            self.scale(TEXT_MOB_SCALE_FACTOR)
        self.initial_height = self.height

    def __repr__(self) -> str:
        return f"Text({repr(self.original_text)})"

    @property
    def font_size(self) -> float:
        return (
            self.height
            / self.initial_height
            / TEXT_MOB_SCALE_FACTOR
            * 2.4
            * self._font_size
            / DEFAULT_FONT_SIZE
        )

    @font_size.setter
    def font_size(self, font_val: float) -> None:
        # TODO: use pango's font size scaling.
        if font_val <= 0:
            raise ValueError("font_size must be greater than 0.")
        else:
            self.scale(font_val / self.font_size)

    def _gen_chars(self) -> VGroup:
        chars = self.get_group_class()()
        submobjects_char_index = 0
        for char_index in range(len(self.text)):
            if self.text[char_index].isspace():
                space = Dot(radius=0, fill_opacity=0, stroke_opacity=0)
                if char_index == 0:
                    space.move_to(self.submobjects[submobjects_char_index].get_center())
                else:
                    space.move_to(
                        self.submobjects[submobjects_char_index - 1].get_center(),
                    )
                chars.add(space)
            else:
                chars.add(self.submobjects[submobjects_char_index])
                submobjects_char_index += 1
        return chars

    def _find_indexes(self, word: str, text: str) -> list[tuple[int, int]]:
        """Finds the indexes of ``text`` in ``word``."""
        temp = re.match(r"\[([0-9\-]{0,}):([0-9\-]{0,})\]", word)
        if temp:
            start = int(temp.group(1)) if temp.group(1) != "" else 0
            end = int(temp.group(2)) if temp.group(2) != "" else len(text)
            start = len(text) + start if start < 0 else start
            end = len(text) + end if end < 0 else end
            return [
                (start, end),
            ]
        indexes = []
        index = text.find(word)
        while index != -1:
            indexes.append((index, index + len(word)))
            index = text.find(word, index + len(word))
        return indexes

    def _text2hash(self, color: ParsableManimColor) -> str:
        """Generates ``sha256`` hash for file name."""
        settings = (
            "PANGO" + self.font + self.slant + self.weight + str(color)
        )  # to differentiate Text and CairoText
        settings += str(self.t2f) + str(self.t2s) + str(self.t2w) + str(self.t2c)
        settings += str(self.line_spacing) + str(self._font_size)
        settings += str(self.disable_ligatures)
        settings += str(self.gradient)
        id_str = self.text + settings
        hasher = hashlib.sha256()
        hasher.update(id_str.encode())
        return hasher.hexdigest()[:16]

    def _merge_settings(
        self,
        left_setting: TextSetting,
        right_setting: TextSetting,
        default_args: dict[str, Iterable[str]],
    ) -> TextSetting:
        contained = right_setting.end < left_setting.end
        new_setting = copy.copy(left_setting) if contained else copy.copy(right_setting)

        new_setting.start = right_setting.end if contained else left_setting.end
        left_setting.end = right_setting.start
        if not contained:
            right_setting.end = new_setting.start

        for arg in default_args:
            left = getattr(left_setting, arg)
            right = getattr(right_setting, arg)
            default = default_args[arg]
            if left != default and getattr(right_setting, arg) != default:
                raise ValueError(
                    f"Ambiguous style for text '{self.text[right_setting.start : right_setting.end]}':"
                    + f"'{arg}' cannot be both '{left}' and '{right}'."
                )
            setattr(right_setting, arg, left if left != default else right)
        return new_setting

    def _get_settings_from_t2xs(
        self,
        t2xs: Sequence[tuple[dict[str, str], str]],
        default_args: dict[str, Iterable[str]],
    ) -> list[TextSetting]:
        settings = []
        t2xwords = set(chain(*([*t2x.keys()] for t2x, _ in t2xs)))
        for word in t2xwords:
            setting_args = {
                arg: str(t2x[word]) if word in t2x else default_args[arg]
                # NOTE: when t2x[word] is a ManimColor, str will yield the
                # hex representation
                for t2x, arg in t2xs
            }

            for start, end in self._find_indexes(word, self.text):
                settings.append(TextSetting(start, end, **setting_args))
        return settings

    def _get_settings_from_gradient(
        self, default_args: dict[str, Any]
    ) -> list[TextSetting]:
        settings = []
        args = copy.copy(default_args)
        if self.gradient:
            colors: list[ManimColor] = color_gradient(self.gradient, len(self.text))
            for i in range(len(self.text)):
                args["color"] = colors[i].to_hex()
                settings.append(TextSetting(i, i + 1, **args))

        for word, gradient in self.t2g.items():
            colors = color_gradient(gradient, len(word))
            for start, end in self._find_indexes(word, self.text):
                for i in range(start, end):
                    args["color"] = colors[i - start].to_hex()
                    settings.append(TextSetting(i, i + 1, **args))
        return settings

    def _text2settings(self, color: ParsableManimColor) -> list[TextSetting]:
        """Converts the texts and styles to a setting for parsing."""
        t2xs: list[tuple[dict[str, str], str]] = [
            (self.t2f, "font"),
            (self.t2s, "slant"),
            (self.t2w, "weight"),
            (self.t2c, "color"),
        ]
        # setting_args requires values to be strings

        default_args: dict[str, Any] = {
            arg: getattr(self, arg) if arg != "color" else color for _, arg in t2xs
        }

        settings = self._get_settings_from_t2xs(t2xs, default_args)
        settings.extend(self._get_settings_from_gradient(default_args))

        # Handle overlaps

        settings.sort(key=lambda setting: setting.start)
        for index, setting in enumerate(settings):
            if index + 1 == len(settings):
                break

            next_setting = settings[index + 1]
            if setting.end > next_setting.start:
                new_setting = self._merge_settings(setting, next_setting, default_args)
                new_index = index + 1
                while (
                    new_index < len(settings)
                    and settings[new_index].start < new_setting.start
                ):
                    new_index += 1
                settings.insert(new_index, new_setting)

        # Set all text settings (default font, slant, weight)
        temp_settings = settings.copy()
        start = 0
        for setting in settings:
            if setting.start != start:
                temp_settings.append(TextSetting(start, setting.start, **default_args))
            start = setting.end
        if start != len(self.text):
            temp_settings.append(TextSetting(start, len(self.text), **default_args))
        settings = sorted(temp_settings, key=lambda setting: setting.start)

        line_num = 0
        if re.search(r"\n", self.text):
            for for_start, for_end in self._find_indexes("\n", self.text):
                for setting in settings:
                    if setting.line_num == -1:
                        setting.line_num = line_num
                    if for_start < setting.end:
                        line_num += 1
                        new_setting = copy.copy(setting)
                        setting.end = for_end
                        new_setting.start = for_end
                        new_setting.line_num = line_num
                        settings.append(new_setting)
                        settings.sort(key=lambda setting: setting.start)
                        break
        for setting in settings:
            if setting.line_num == -1:
                setting.line_num = line_num

        return settings

    def _text2svg(self, color: ParsableManimColor) -> str:
        """Convert the text to SVG using Pango."""
        size = self._font_size
        line_spacing = self.line_spacing
        size /= TEXT2SVG_ADJUSTMENT_FACTOR
        line_spacing /= TEXT2SVG_ADJUSTMENT_FACTOR

        dir_name = config.get_dir("text_dir")
        if not dir_name.is_dir():
            dir_name.mkdir(parents=True)
        hash_name = self._text2hash(color)
        file_name = dir_name / (hash_name + ".svg")

        if file_name.exists():
            svg_file = str(file_name.resolve())
        else:
            settings = self._text2settings(color)
            width = config["pixel_width"]
            height = config["pixel_height"]

            svg_file = manimpango.text2svg(
                settings,
                size,
                line_spacing,
                self.disable_ligatures,
                str(file_name.resolve()),
                START_X,
                START_Y,
                width,
                height,
                self.text,
            )

        return svg_file

    def init_colors(self, propagate_colors: bool = True) -> Self:
        if config.renderer == RendererType.OPENGL:
            super().init_colors()
        elif config.renderer == RendererType.CAIRO:
            super().init_colors(propagate_colors=propagate_colors)
        return self


class MarkupText(SVGMobject):
    r"""Display (non-LaTeX) text rendered using `Pango <https://pango.org/>`_.

    Text objects behave like a :class:`.VGroup`-like iterable of all characters
    in the given text. In particular, slicing is possible.

    **What is PangoMarkup?**

    PangoMarkup is a small markup language like html and it helps you avoid using
    "range of characters" while coloring or styling a piece a Text. You can use
    this language with :class:`~.MarkupText`.

    A simple example of a marked-up string might be::

        <span foreground="blue" size="x-large">Blue text</span> is <i>cool</i>!"

    and it can be used with :class:`~.MarkupText` as

    .. manim:: MarkupExample
        :save_last_frame:

        class MarkupExample(Scene):
            def construct(self):
                text = MarkupText('<span foreground="blue" size="x-large">Blue text</span> is <i>cool</i>!"')
                self.add(text)

    A more elaborate example would be:

    .. manim:: MarkupElaborateExample
        :save_last_frame:

        class MarkupElaborateExample(Scene):
            def construct(self):
                text = MarkupText(
                    '<span foreground="purple">ا</span><span foreground="red">َ</span>'
                    'ل<span foreground="blue">ْ</span>ع<span foreground="red">َ</span>ر'
                    '<span foreground="red">َ</span>ب<span foreground="red">ِ</span>ي'
                    '<span foreground="green">ّ</span><span foreground="red">َ</span>ة'
                    '<span foreground="blue">ُ</span>'
                )
                self.add(text)

    PangoMarkup can also contain XML features such as numeric character
    entities such as ``&#169;`` for © can be used too.

    The most general markup tag is ``<span>``, then there are some
    convenience tags.

    Here is a list of supported tags:

    - ``<b>bold</b>``, ``<i>italic</i>`` and ``<b><i>bold+italic</i></b>``
    - ``<u>underline</u>`` and ``<s>strike through</s>``
    - ``<tt>typewriter font</tt>``
    - ``<big>bigger font</big>`` and ``<small>smaller font</small>``
    - ``<sup>superscript</sup>`` and ``<sub>subscript</sub>``
    - ``<span underline="double" underline_color="green">double underline</span>``
    - ``<span underline="error">error underline</span>``
    - ``<span overline="single" overline_color="green">overline</span>``
    - ``<span strikethrough="true" strikethrough_color="red">strikethrough</span>``
    - ``<span font_family="sans">temporary change of font</span>``
    - ``<span foreground="red">temporary change of color</span>``
    - ``<span fgcolor="red">temporary change of color</span>``
    - ``<gradient from="YELLOW" to="RED">temporary gradient</gradient>``

    For ``<span>`` markup, colors can be specified either as
    hex triples like ``#aabbcc`` or as named CSS colors like
    ``AliceBlue``.
    The ``<gradient>`` tag is handled by Manim rather than
    Pango, and supports hex triplets or Manim constants like
    ``RED`` or ``RED_A``.
    If you want to use Manim constants like ``RED_A`` together
    with ``<span>``, you will need to use Python's f-String
    syntax as follows::

        MarkupText(f'<span foreground="{RED_A}">here you go</span>')

    If your text contains ligatures, the :class:`MarkupText` class may
    incorrectly determine the first and last letter when creating the
    gradient. This is due to the fact that ``fl`` are two separate characters,
    but might be set as one single glyph - a ligature. If your language
    does not depend on ligatures, consider setting ``disable_ligatures``
    to ``True``. If you must use ligatures, the ``gradient`` tag supports an optional
    attribute ``offset`` which can be used to compensate for that error.

    For example:

    - ``<gradient from="RED" to="YELLOW" offset="1">example</gradient>`` to *start* the gradient one letter earlier
    - ``<gradient from="RED" to="YELLOW" offset=",1">example</gradient>`` to *end* the gradient one letter earlier
    - ``<gradient from="RED" to="YELLOW" offset="2,1">example</gradient>`` to *start* the gradient two letters earlier and *end* it one letter earlier

    Specifying a second offset may be necessary if the text to be colored does
    itself contain ligatures. The same can happen when using HTML entities for
    special chars.

    When using ``underline``, ``overline`` or ``strikethrough`` together with
    ``<gradient>`` tags, you will also need to use the offset, because
    underlines are additional paths in the final :class:`SVGMobject`.
    Check out the following example.

    Escaping of special characters: ``>`` **should** be written as ``&gt;``
    whereas ``<`` and ``&`` *must* be written as ``&lt;`` and
    ``&amp;``.

    You can find more information about Pango markup formatting at the
    corresponding documentation page:
    `Pango Markup <https://docs.gtk.org/Pango/pango_markup.html>`_.
    Please be aware that not all features are supported by this class and that
    the ``<gradient>`` tag mentioned above is not supported by Pango.

    Parameters
    ----------

    text
        The text that needs to be created as mobject.
    fill_opacity
        The fill opacity, with 1 meaning opaque and 0 meaning transparent.
    stroke_width
        Stroke width.
    font_size
        Font size.
    line_spacing
        Line spacing.
    font
        Global font setting for the entire text. Local overrides are possible.
    slant
        Global slant setting, e.g. `NORMAL` or `ITALIC`. Local overrides are possible.
    weight
        Global weight setting, e.g. `NORMAL` or `BOLD`. Local overrides are possible.
    gradient
        Global gradient setting. Local overrides are possible.
    warn_missing_font
        If True (default), Manim will issue a warning if the font does not exist in the
        (case-sensitive) list of fonts returned from `manimpango.list_fonts()`.

    Returns
    -------
    :class:`MarkupText`
        The text displayed in form of a :class:`.VGroup`-like mobject.

    Examples
    ---------

    .. manim:: BasicMarkupExample
        :save_last_frame:

        class BasicMarkupExample(Scene):
            def construct(self):
                text1 = MarkupText("<b>foo</b> <i>bar</i> <b><i>foobar</i></b>")
                text2 = MarkupText("<s>foo</s> <u>bar</u> <big>big</big> <small>small</small>")
                text3 = MarkupText("H<sub>2</sub>O and H<sub>3</sub>O<sup>+</sup>")
                text4 = MarkupText("type <tt>help</tt> for help")
                text5 = MarkupText(
                    '<span underline="double">foo</span> <span underline="error">bar</span>'
                )
                group = VGroup(text1, text2, text3, text4, text5).arrange(DOWN)
                self.add(group)

    .. manim:: ColorExample
        :save_last_frame:

        class ColorExample(Scene):
            def construct(self):
                text1 = MarkupText(
                    f'all in red <span fgcolor="{YELLOW}">except this</span>', color=RED
                )
                text2 = MarkupText("nice gradient", gradient=(BLUE, GREEN))
                text3 = MarkupText(
                    'nice <gradient from="RED" to="YELLOW">intermediate</gradient> gradient',
                    gradient=(BLUE, GREEN),
                )
                text4 = MarkupText(
                    'fl ligature <gradient from="RED" to="YELLOW">causing trouble</gradient> here'
                )
                text5 = MarkupText(
                    'fl ligature <gradient from="RED" to="YELLOW" offset="1">defeated</gradient> with offset'
                )
                text6 = MarkupText(
                    'fl ligature <gradient from="RED" to="YELLOW" offset="1">floating</gradient> inside'
                )
                text7 = MarkupText(
                    'fl ligature <gradient from="RED" to="YELLOW" offset="1,1">floating</gradient> inside'
                )
                group = VGroup(text1, text2, text3, text4, text5, text6, text7).arrange(DOWN)
                self.add(group)

    .. manim:: UnderlineExample
        :save_last_frame:

        class UnderlineExample(Scene):
            def construct(self):
                text1 = MarkupText(
                    '<span underline="double" underline_color="green">bla</span>'
                )
                text2 = MarkupText(
                    '<span underline="single" underline_color="green">xxx</span><gradient from="#ffff00" to="RED">aabb</gradient>y'
                )
                text3 = MarkupText(
                    '<span underline="single" underline_color="green">xxx</span><gradient from="#ffff00" to="RED" offset="-1">aabb</gradient>y'
                )
                text4 = MarkupText(
                    '<span underline="double" underline_color="green">xxx</span><gradient from="#ffff00" to="RED">aabb</gradient>y'
                )
                text5 = MarkupText(
                    '<span underline="double" underline_color="green">xxx</span><gradient from="#ffff00" to="RED" offset="-2">aabb</gradient>y'
                )
                group = VGroup(text1, text2, text3, text4, text5).arrange(DOWN)
                self.add(group)

    .. manim:: FontExample
        :save_last_frame:

        class FontExample(Scene):
            def construct(self):
                text1 = MarkupText(
                    'all in sans <span font_family="serif">except this</span>', font="sans"
                )
                text2 = MarkupText(
                    '<span font_family="serif">mixing</span> <span font_family="sans">fonts</span> <span font_family="monospace">is ugly</span>'
                )
                text3 = MarkupText("special char > or &gt;")
                text4 = MarkupText("special char &lt; and &amp;")
                group = VGroup(text1, text2, text3, text4).arrange(DOWN)
                self.add(group)

    .. manim:: NewlineExample
        :save_last_frame:

        class NewlineExample(Scene):
            def construct(self):
                text = MarkupText('foooo<span foreground="red">oo\nbaa</span>aar')
                self.add(text)

    .. manim:: NoLigaturesExample
        :save_last_frame:

        class NoLigaturesExample(Scene):
            def construct(self):
                text1 = MarkupText('fl<gradient from="RED" to="GREEN">oat</gradient>ing')
                text2 = MarkupText('fl<gradient from="RED" to="GREEN">oat</gradient>ing', disable_ligatures=True)
                group = VGroup(text1, text2).arrange(DOWN)
                self.add(group)


    As :class:`MarkupText` uses Pango to render text, rendering non-English
    characters is easily possible:

    .. manim:: MultiLanguage
        :save_last_frame:

        class MultiLanguage(Scene):
            def construct(self):
                morning = MarkupText("வணக்கம்", font="sans-serif")
                japanese = MarkupText(
                    '<span fgcolor="blue">日本</span>へようこそ'
                )  # works as in ``Text``.
                mess = MarkupText("Multi-Language", weight=BOLD)
                russ = MarkupText("Здравствуйте मस नम म ", font="sans-serif")
                hin = MarkupText("नमस्ते", font="sans-serif")
                chinese = MarkupText("臂猿「黛比」帶著孩子", font="sans-serif")
                group = VGroup(morning, japanese, mess, russ, hin, chinese).arrange(DOWN)
                self.add(group)

    You can justify the text by passing :attr:`justify` parameter.

    .. manim:: JustifyText

        class JustifyText(Scene):
            def construct(self):
                ipsum_text = (
                    "Lorem ipsum dolor sit amet, consectetur adipiscing elit."
                    "Praesent feugiat metus sit amet iaculis pulvinar. Nulla posuere "
                    "quam a ex aliquam, eleifend consectetur tellus viverra. Aliquam "
                    "fermentum interdum justo, nec rutrum elit pretium ac. Nam quis "
                    "leo pulvinar, dignissim est at, venenatis nisi."
                )
                justified_text = MarkupText(ipsum_text, justify=True).scale(0.4)
                not_justified_text = MarkupText(ipsum_text, justify=False).scale(0.4)
                just_title = Title("Justified")
                njust_title = Title("Not Justified")
                self.add(njust_title, not_justified_text)
                self.play(
                    FadeOut(not_justified_text),
                    FadeIn(justified_text),
                    FadeOut(njust_title),
                    FadeIn(just_title),
                )
                self.wait(1)

    Tests
    -----

    Check that the creation of :class:`~.MarkupText` works::

        >>> MarkupText('The horse does not eat cucumber salad.')
        MarkupText('The horse does not eat cucumber salad.')

    """

    @staticmethod
    @functools.cache
    def font_list() -> list[str]:
        value: list[str] = manimpango.list_fonts()
        return value

    def __init__(
        self,
        text: str,
        fill_opacity: float = 1,
        stroke_width: float = 0,
        color: ParsableManimColor | None = None,
        font_size: float = DEFAULT_FONT_SIZE,
        line_spacing: float = -1,
        font: str = "",
        slant: str = NORMAL,
        weight: str = NORMAL,
        justify: bool = False,
        gradient: Iterable[ParsableManimColor] | None = None,
        tab_width: int = 4,
        height: int | None = None,
        width: int | None = None,
        should_center: bool = True,
        disable_ligatures: bool = False,
        warn_missing_font: bool = True,
        **kwargs: Any,
    ):
        self.text = text
        self.line_spacing: float = line_spacing
        if font and warn_missing_font:
            fonts_list = Text.font_list()
            # handle special case of sans/sans-serif
            if font.lower() == "sans-serif":
                font = "sans"
            if font not in fonts_list:
                # check if the capitalized version is in the supported fonts
                if font.capitalize() in fonts_list:
                    font = font.capitalize()
                elif font.lower() in fonts_list:
                    font = font.lower()
                elif font.title() in fonts_list:
                    font = font.title()
                else:
                    logger.warning(f"Font {font} not in {fonts_list}.")
        self.font = font
        self._font_size = float(font_size)
        self.slant = slant
        self.weight = weight
        self.gradient = gradient
        self.tab_width = tab_width
        self.justify = justify

        self.original_text = text
        self.disable_ligatures = disable_ligatures
        text_without_tabs = text
        if "\t" in text:
            text_without_tabs = text.replace("\t", " " * self.tab_width)

        colormap = self._extract_color_tags()
        if len(colormap) > 0:
            logger.warning(
                'Using <color> tags in MarkupText is deprecated. Please use <span foreground="..."> instead.',
            )
        gradientmap = self._extract_gradient_tags()
        validate_error = MarkupUtils.validate(self.text)
        if validate_error:
            raise ValueError(validate_error)

        if self.line_spacing == -1:
            self.line_spacing = (
                self._font_size + self._font_size * DEFAULT_LINE_SPACING_SCALE
            )
        else:
            self.line_spacing = self._font_size + self._font_size * self.line_spacing

        parsed_color: ManimColor = ManimColor(color) if color else VMobject().color
        file_name = self._text2svg(parsed_color)

        PangoUtils.remove_last_M(file_name)
        super().__init__(
            file_name,
            fill_opacity=fill_opacity,
            stroke_width=stroke_width,
            height=height,
            width=width,
            should_center=should_center,
            **kwargs,
        )

        self.chars = self.get_group_class()(*self.submobjects)
        self.text = text_without_tabs.replace(" ", "").replace("\n", "")

        nppc = self.n_points_per_curve
        for each in self:
            if len(each.points) == 0:
                continue
            points = each.points
            curve_start = points[0]
            assert len(curve_start) == self.dim, curve_start
            # Some of the glyphs in this text might not be closed,
            # so we close them by identifying when one curve ends
            # but it is not where the next curve starts.
            # It is more efficient to temporarily create a list
            # of points and add them one at a time, then turn them
            # into a numpy array at the end, rather than creating
            # new numpy arrays every time a point or fixing line
            # is added (which is O(n^2) for numpy arrays).
            closed_curve_points: list[Point3D] = []
            # OpenGL has points be part of quadratic Bezier curves;
            # Cairo uses cubic Bezier curves.
            if nppc == 3:  # RendererType.OPENGL

                def add_line_to(end: Point3D) -> None:
                    nonlocal closed_curve_points
                    start = closed_curve_points[-1]
                    closed_curve_points += [
                        start,
                        (start + end) / 2,
                        end,
                    ]

            else:  # RendererType.CAIRO

                def add_line_to(end: Point3D) -> None:
                    nonlocal closed_curve_points
                    start = closed_curve_points[-1]
                    closed_curve_points += [
                        start,
                        (start + start + end) / 3,
                        (start + end + end) / 3,
                        end,
                    ]

            for index, point in enumerate(points):
                closed_curve_points.append(point)
                if (
                    index != len(points) - 1
                    and (index + 1) % nppc == 0
                    and any(point != points[index + 1])
                ):
                    # Add straight line from last point on this curve to the
                    # start point on the next curve.
                    add_line_to(curve_start)
                    curve_start = points[index + 1]
            # Make sure last curve is closed
            add_line_to(curve_start)
            each.points = np.array(closed_curve_points, ndmin=2)

        if self.gradient:
            self.set_color_by_gradient(*self.gradient)
        for col in colormap:
            self.chars[
                col["start"] - col["start_offset"] : col["end"]
                - col["start_offset"]
                - col["end_offset"]
            ].set_color(self._parse_color(col["color"]))
        for grad in gradientmap:
            self.chars[
                grad["start"] - grad["start_offset"] : grad["end"]
                - grad["start_offset"]
                - grad["end_offset"]
            ].set_color_by_gradient(
                *(self._parse_color(grad["from"]), self._parse_color(grad["to"]))
            )
        # anti-aliasing
        if height is None and width is None:
            self.scale(TEXT_MOB_SCALE_FACTOR)

        self.initial_height = self.height

    @property
    def font_size(self) -> float:
        return (
            self.height
            / self.initial_height
            / TEXT_MOB_SCALE_FACTOR
            * 2.4
            * self._font_size
            / DEFAULT_FONT_SIZE
        )

    @font_size.setter
    def font_size(self, font_val: float) -> None:
        # TODO: use pango's font size scaling.
        if font_val <= 0:
            raise ValueError("font_size must be greater than 0.")
        else:
            self.scale(font_val / self.font_size)

    def _text2hash(self, color: ParsableManimColor) -> str:
        """Generates ``sha256`` hash for file name."""
        settings = (
            "MARKUPPANGO"
            + self.font
            + self.slant
            + self.weight
            + ManimColor(color).to_hex().lower()
        )  # to differentiate from classical Pango Text
        settings += str(self.line_spacing) + str(self._font_size)
        settings += str(self.disable_ligatures)
        settings += str(self.justify)
        id_str = self.text + settings
        hasher = hashlib.sha256()
        hasher.update(id_str.encode())
        return hasher.hexdigest()[:16]

    def _text2svg(self, color: ParsableManimColor | None) -> str:
        """Convert the text to SVG using Pango."""
        color = ManimColor(color)
        size = self._font_size
        line_spacing: float = self.line_spacing
        size /= TEXT2SVG_ADJUSTMENT_FACTOR
        line_spacing /= TEXT2SVG_ADJUSTMENT_FACTOR

        dir_name = config.get_dir("text_dir")
        if not dir_name.is_dir():
            dir_name.mkdir(parents=True)
        hash_name = self._text2hash(color)
        file_name = dir_name / (hash_name + ".svg")

        if file_name.exists():
            svg_file: str = str(file_name.resolve())
        else:
            final_text = (
                f'<span foreground="{color.to_hex()}">{self.text}</span>'
                if color is not None
                else self.text
            )
            logger.debug(f"Setting Text {self.text}")
            svg_file = MarkupUtils.text2svg(
                final_text,
                self.font,
                self.slant,
                self.weight,
                size,
                line_spacing,
                self.disable_ligatures,
                str(file_name.resolve()),
                START_X,
                START_Y,
                600,  # width
                400,  # height
                justify=self.justify,
                pango_width=500,
            )
        return svg_file

    def _count_real_chars(self, s: str) -> int:
        """Counts characters that will be displayed.

        This is needed for partial coloring or gradients, because space
        counts to the text's `len`, but has no corresponding character.
        """
        count = 0
        level = 0
        # temporarily replace HTML entities by single char
        s = re.sub("&[^;]+;", "x", s)
        for c in s:
            if c == "<":
                level += 1
            if c == ">" and level > 0:
                level -= 1
            elif c != " " and c != "\t" and level == 0:
                count += 1
        return count

    def _extract_gradient_tags(self) -> list[dict[str, Any]]:
        """Used to determine which parts (if any) of the string should be formatted
        with a gradient.

        Removes the ``<gradient>`` tag, as it is not part of Pango's markup and would cause an error.
        """
        tags = re.finditer(
            r'<gradient\s+from="([^"]+)"\s+to="([^"]+)"(\s+offset="([^"]+)")?>(.+?)</gradient>',
            self.original_text,
            re.S,
        )
        gradientmap: list[dict[str, Any]] = []
        for tag in tags:
            start = self._count_real_chars(self.original_text[: tag.start(0)])
            end = start + self._count_real_chars(tag.group(5))
            offsets = tag.group(4).split(",") if tag.group(4) else [0]
            start_offset = int(offsets[0]) if offsets[0] else 0
            end_offset = int(offsets[1]) if len(offsets) == 2 and offsets[1] else 0

            gradientmap.append(
                {
                    "start": start,
                    "end": end,
                    "from": tag.group(1),
                    "to": tag.group(2),
                    "start_offset": start_offset,
                    "end_offset": end_offset,
                },
            )
        self.text = re.sub(
            "<gradient[^>]+>(.+?)</gradient>", r"\1", self.text, count=0, flags=re.S
        )
        return gradientmap

    def _parse_color(self, col: str) -> str:
        """Parse color given in ``<color>`` or ``<gradient>`` tags."""
        if re.match("#[0-9a-f]{6}", col):
            return col
        else:
            return ManimColor(col).to_hex()

    def _extract_color_tags(self) -> list[dict[str, Any]]:
        """Used to determine which parts (if any) of the string should be formatted
        with a custom color.

        Removes the ``<color>`` tag, as it is not part of Pango's markup and would cause an error.

        Note: Using the ``<color>`` tags is deprecated. As soon as the legacy syntax is gone, this function
        will be removed.
        """
        tags = re.finditer(
            r'<color\s+col="([^"]+)"(\s+offset="([^"]+)")?>(.+?)</color>',
            self.original_text,
            re.S,
        )

        colormap: list[dict[str, Any]] = []
        for tag in tags:
            start = self._count_real_chars(self.original_text[: tag.start(0)])
            end = start + self._count_real_chars(tag.group(4))
            offsets = tag.group(3).split(",") if tag.group(3) else [0]
            start_offset = int(offsets[0]) if offsets[0] else 0
            end_offset = int(offsets[1]) if len(offsets) == 2 and offsets[1] else 0

            colormap.append(
                {
                    "start": start,
                    "end": end,
                    "color": tag.group(1),
                    "start_offset": start_offset,
                    "end_offset": end_offset,
                },
            )
        self.text = re.sub(
            "<color[^>]+>(.+?)</color>", r"\1", self.text, count=0, flags=re.S
        )
        return colormap

    def __repr__(self) -> str:
        return f"MarkupText({repr(self.original_text)})"


@contextmanager
def register_font(font_file: str | Path) -> Iterator[None]:
    """Temporarily add a font file to Pango's search path.

    This searches for the font_file at various places. The order it searches it described below.

    1. Absolute path.
    2. In ``assets/fonts`` folder.
    3. In ``font/`` folder.
    4. In the same directory.

    Parameters
    ----------
    font_file
        The font file to add.

    Examples
    --------
    Use ``with register_font(...)`` to add a font file to search
    path.

    .. code-block:: python

        with register_font("path/to/font_file.ttf"):
            a = Text("Hello", font="Custom Font Name")

    Raises
    ------
    FileNotFoundError:
        If the font doesn't exists.

    AttributeError:
        If this method is used on macOS.

    .. important ::

        This method is available for macOS for ``ManimPango>=v0.2.3``. Using this
        method with previous releases will raise an :class:`AttributeError` on macOS.
    """
    input_folder = Path(config.input_file).parent.resolve()
    possible_paths = [
        Path(font_file),
        input_folder / "assets/fonts" / font_file,
        input_folder / "fonts" / font_file,
        input_folder / font_file,
    ]
    for path in possible_paths:
        path = path.resolve()
        if path.exists():
            file_path = path
            logger.debug("Found file at %s", file_path.absolute())
            break
    else:
        error = f"Can't find {font_file}. Checked paths: {possible_paths}"
        raise FileNotFoundError(error)

    try:
        assert manimpango.register_font(str(file_path))
        yield
    finally:
        manimpango.unregister_font(str(file_path))
